Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.6.1 (sulfatase)
3,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The sorting of newly synthesized mannose 6-phosphate (M6P)-containing proteins and of the major excreted protein (MEP), a lysosomal thiol proteinase, was studied in NIH-3T3 cells transfected with the cDNA of human insulin-like growth factor II (IGF II) or with the vector alone. Extracts from media and cells labelled with [35S] methionine were used for chromatography on a M6P/IGF II receptor affinity matrix or for immunoprecipitation to assess the distribution of newly synthesized M6P-containing proteins and MEP, respectively. The results indicate that the overexpression of IGF II did not affect the synthesis and the sorting of M6P-containing proteins and of MEP. The binding and uptake of the lysosomal enzyme arylsulfatase A were not affected in IGF II overexpressing cells.
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PMID:Insulin-like growth factor II overexpression does not affect sorting of lysosomal enzymes in NIH-3T3 cells. 167 27

Enhanced chemiluminescent assays for hydrolase enzymes have been developed using proenhancer and pro-anti-enhancer substrates. Alkaline phosphatase is measured using disodium para-iodophenyl phosphate (proenhancer) which is converted to para-iodophenol and this in turn enhances the light emission from the horseradish peroxidase catalysed chemiluminescent oxidation of luminol by peroxide. An alternative strategy uses para-nitrophenyl phosphate which is converted by alkaline phosphatase to para-nitrophenol which inhibits the enhanced chemiluminescent reaction. The detection limit for the enzyme using the proenhancer and pro-anti-enhancer assays was 100 attomoles and 1 picomole, respectively. The proenhancer strategy was effective in assays for beta-D-galactosidase, beta-D-glucosidase and aryl sulfatase. A limited comparison of the proenhancer and a conventional colorimetric assay for an alkaline phosphatase label in an enzyme immunoassay for alpha-fetoprotein showed good agreement.
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PMID:Chemiluminescent assay of enzymes using proenhancers and pro-anti-enhancers. 172 39

N-Acetylgalactosamine-6-sulfate sulfatase from human placenta was purified 33,600-fold using beta-N-acetyl-D-galactosamine 6-sulfate-(1----4)-beta-D-glucuronic acid-(1----3)-N-acetyl-D-[3H]galactosaminitol 6-sulfate as the substrate. This enzyme is an oligomer with a molecular mass of 120 kDa and consists of polypeptides of 40 and 15 kDa. The 15 kDa polypeptide is a glycoprotein. This purified protein has activities of N-acetylgalactosamine-6-sulfate sulfatase and galactose-6-sulfate sulfatase. Rabbit antiserum was raised against the purified protein. The antibody titrated N-acetylgalactosamine-6-sulfate sulfatase and galactose-6-sulfate sulfatase. The size of the precursor of the enzyme is 60 kDa, as determined by cell-free translation. The optimal pH values of the N-acetylgalactosamine-6-sulfate sulfatase and galactose-6-sulfate sulfatase activities are pH 3.8-4.0, and the Kms are 8 and 13 microM, respectively. Sulfate and phosphate ions are potent competitive inhibitors for the enzyme and their inhibition constants are 35 and 200 microM, respectively. Cross-reactive materials of 40 and 15 kDa were detected by immunoblot analysis, in the placenta, liver, and normal fibroblasts, but not in fibroblasts from a patient with Morquio disease.
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PMID:N-acetylgalactosamine-6-sulfate sulfatase in human placenta: purification and characteristics. 179 86

An enzyme with sulfatase activity has been isolated from the granules of a rat NK leukemia cell line, CRNK-16. The enzyme has been purified from crude preparation, with a specific activity of 52 nmol/min/mg of protein, by DEAE ion exchange and Con A-Sepharose affinity chromatography, resulting in a specific activity of 230 nmol/min/mg of protein. The molecular mass of the purified enzyme was estimated to be 40 kDa by gel filtration chromatography at pH 7.4, but the enzyme had the ability to complex to molecular masses of greater than 300 kDa at low pH when crude granule extract was used as the starting sample, suggesting that it associates with other granule components. The enzyme was determined to be an arylsulfatase by its ability to (a) hydrolyze p-nitrophenyl sulfate (Km = 26.0 mM) and p-nitrocatechol sulfate (pNC sulfate) (Km = 1.1 mM) and (b) be inhibited by sulfite (Ki = 6.0 x 10(-7) M), sulfate (Ki = 1 x 10(-3) M), and phosphate (Ki = 4 x 10(-5) M) in a competitive manner. The pH optimum for enzymatic activity was determined to be 5.6. The role of this enzyme in cytolytic function was investigated by examining the effect of its substrates and inhibitors on granule- and cell-mediated lysis. pNC sulfate was shown to cause a dose-dependent inhibition of target cell lysis by isolated cytolytic granules (complete inhibition at 12.5 mM). Sulfite induced an incomplete inhibition (50% at 1 mM), whereas phosphate was essentially without inhibitory effect. Sulfate, on the other hand, altered lytic activity in a biphasic manner, inasmuch as it induced an inhibition of lysis at high concentrations and an increase of lysis at low concentrations. Cell-mediated lysis was inhibited by pNC sulfate in a dose-dependent fashion at concentrations greater than 2.5 mM, with nearly complete inhibition at 50 mM. Sulfate also altered the lytic activity by intact cells in a biphasic manner, although the effect was much less pronounced. Sulfite and phosphate caused only a 30% inhibition of lytic activity. These results suggest that the sulfatase enzyme is involved in NK cytolytic function, presumably at the lethal hit stage.
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PMID:Natural killer cell cytolytic granule-associated enzymes. I. Purification, characterization, and analysis of function of an enzyme with sulfatase activity. 186 Oct 83

The effects of inhibition of bone resorption by the peptide hormone calcitonin have been studied at the level of the osteoclast. Although not epithelial, the osteoclast is polarized with the secretion of newly synthesized lysosomal enzymes and of acid occurring specifically at the apical pole, facing the bone compartment. The membranes composing the apical (ruffled-border) and basolateral domains contain topologically restricted antigens, a 100 x 10(3) Mr lysosomal membrane protein and the Na+,K(+)-ATPase, respectively. It was found that calcitonin induces a rapid (15-60 min) redistribution of the apical marker as well as of markers of the secretory compartment of the osteoclast (arylsulfatase and cation-independent mannose 6-phosphate (Man6P) receptors). The apical plasma membrane, in contrast to the basolateral membrane, is selectively internalized. This internalization leads to the disappearance of the ruffled border. The vesicular translocation of apical membranes is reminiscent of the events occurring in gastric oxyntic cells and in kidney tubule intercalated cells during the regulation of acid secretion. In parallel, the synthesis of both the lysosomal enzyme arylsulfatase and Man6P receptors is arrested. The products that were already present in the secretory pathway seem to be rerouted to intracellular vacuoles instead of being targeted to the plasma membrane, leading to marked accumulation of enzymes in the inhibited cells. These results suggest that the rapid inhibition of bone resorption by calcitonin involves the vesicular translocation of the apical membranes and the rapid arrest in the synthesis and secretion of lysosomal enzymes in osteoclasts.
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PMID:Selective internalization of the apical plasma membrane and rapid redistribution of lysosomal enzymes and mannose 6-phosphate receptors during osteoclast inactivation by calcitonin. 196 25

The mannose 6-phosphate (Man-6-P)/insulin-like growth factor (IGF) II receptor has separate binding sites for Man-6-P and IGF II. It targets newly synthesized lysosomal enzymes from the Golgi to acidic pre-lysosomal organelles and mediates endocytosis of Man-6-P-containing ligands and IGF II. The two classes of ligands, Man-6-P and IGF II, as well as IGF I and the epidermal growth factor, induce in fibroblasts a transient redistribution of the receptor from internal membranes to the cell surface (Braulke, T., Tippmer, S., Neher, E., and von Figura, K. (1989) EMBO J. 8, 681-686). Here we show that the redistribution induced by IGF I and IGF II is accomplished without affecting the internalization rate of cell surface receptors. The redistribution results in an increased binding of ligands to the Man-6-P- and IGF II-binding sites of the receptor. Furthermore, the uptake of the lysosomal enzyme arylsulfatase A and of a Man-6-P neoglycoprotein is stimulated 2-3-fold by IGF I and IGF II, and this effect persists for at least 6 h. The IGF I- and IGF II-induced receptor redistribution does not affect the targeting of newly synthesized lysosomal enzymes. These results show that important functions of the Man-6-P/IGF II receptor such as binding and internalization of ligands can be up-regulated by the ligands of this receptor and other growth factors such as IGF I through redistribution of the receptor.
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PMID:Insulin-like growth factors I and II stimulate endocytosis but do not affect sorting of lysosomal enzymes in human fibroblasts. 196 63

The sulfate conjugate of the model compound 4-methylumbelliferone was taken up and hydrolyzed considerably more rapidly by isolated hepatocytes than was the glucuronide conjugate. Using intact hepatocytes or homogenates of hepatocytes, compounds were identified that either inhibited 4-methylumbelliferyl sulfate hydrolysis via arylsulfatase or impaired its uptake into cells. For example, sodium sulfate inhibited hydrolysis of 4-methylumbelliferyl sulfate by intact hepatocytes (half-maximal inhibition, 0.1 mM) but not by homogenates, suggesting a selective action on organic sulfate uptake at the plasma membrane. In contrast, cholesterol sulfate inhibited hydrolysis of 4-methylumbelliferyl sulfate by homogenates but not by hepatocytes, consistent with the hypothesis that cholesterol sulfate does not readily enter intact cells. Compounds that inhibited hydrolysis of 4-methylumbelliferyl sulfate by both isolated hepatocytes and microsomes include sodium sulfite (half-maximal inhibition, 0.1 mM), pregnenolone sulfate (half-maximal inhibition, 1 microM), and estrone sulfate (half-maximal inhibition, 10 microM). To test whether production of sulfate conjugates could be modified by agents affecting arylsulfatase in intact hepatocytes, we examined the effects of pregnenolone sulfate on the production of 4-methylumbelliferyl sulfate from 4-methylumbelliferone. Addition of pregnenolone sulfate (100 microM) to intact cells increased rates of 4-methylumbelliferone sulfate production and decreased the fraction of 4-methylumbelliferone converted into the glucuronide. Hydrolysis of 4-methylumbelliferyl sulfate by isolated microsomes was inhibited in a dose-dependent manner by adenosine 3'-phosphate 5'-phosphosulfate (PAPS) when cytosol, a source of sulfotransferase was present. Furthermore, addition of low concentrations of PAPS (0.5 microM) to a reconstituted system of microsomes and cytosol impaired the formation of fluorescent product from 4-methylumbelliferyl sulfate until PAPS was consumed, indicating that futile cycling via arylsulfatase and sulfotransferase occurred. Subsequent futile cycling of free 4-methylumbelliferone and 4-methylumbelliferyl sulfate occurred upon repeated additions of PAPS and was prevented by sodium sulfite, an inhibitor of arylsulfatase. These results argue strongly that sulfate conjugate production within hepatocytes is regulated by futile cycling via sulfotransferase and arylsulfatase. Thus, drugs and endogenous substances that affect arylsulfatase may have marked effects on sulfate conjugate production by the liver.
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PMID:Futile cycling of a sulfate conjugate by isolated hepatocytes. 200 78

In research on congenital metabolic disorders, a biochemist can choose between the theoretical and the practical approach. The diagnosis of metabolic diseases relies on 1) the determination of the presence of metabolites under normal conditions that are direct substrates of the defective enzyme (e.g., the Gm2 ganglioside in the brain tissue of a patient with Tay-Sachs disease); 2) the determination of the lack or insufficiency of the direct product of the defective enzyme (e.g., aryl sulfatase A in the cells of patients with metachromatic leukodystrophy), hormone (hypothyroidism), or receptor (congenital hypercholesterolemia); 3) determination of substance whose reduction was established by experimentation, but the cause of the decrease is not known (ceruloplasmin in Wilson's disease); and 4) DNA analysis. Metabolic impairment of genetic origin is not treatable. The disease can be prevented by 1) removing the inappropriate metabolite (e.g., copper accumulation can be avoided by giving penicillamine or zinc salts); 2) limiting those substances in the critical phase of childhood that are components of the defective enzyme (e.g. gluten reduction in colic and protein in phenylketonuria); 3) supplementing the insufficient metabolite (e.g., phosphate in hypophosphatemia by sound for 12 hours a day); 4) protecting the patients (e.g. from light in porphyria); and 5) treatment by substances (giving coagulation factor VIII in hemophilia and thyroid hormones in hypothyroidism). There is a dilemma in subjecting patients to a diagnosis of progression to Huntington's chorea 20 years in advance or informing them about the high risk of hereditary disease for the next child (25% for the recessive and 50% for the dominant mode). Ethical committees have usually opted for a recommendation of selective abortion in clear-cut cases. Increasingly refined diagnostic methods have magnified the responsibility of the biochemist.
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PMID:[Prenatal diagnosis: a chance? risk? dilemma?]. 209 55

A sulfatase acting upon chondroitin sulfate polymers, free of beta-glucuronidase and beta-N-acetylhexosaminidases, was isolated from extracts of the mollusc Anomalocardia brasiliana. The enzyme totally desulfates both chondroitin 4- and 6-sulfates without concomitant depolymerization of the compounds. It has no activity upon heparan sulfate, heparin, dermatan sulfate, and chondroitin sulfate disaccharides. It shows a pH of 5.0 and a temperature of 37 degrees C for optimum activity with a Km of 4 x 10(-5) M. The sulfatase is inhibited by sulfate and phosphate ions and HgCl2. The latter inhibition is reverted by sodium tetrathionate. Contrary to the sulfatases described so far the enzyme is activated by the lactone of D-saccharic acid when in the presence of beta-glucuronidase and beta-N-acetylgalactosaminidase. Several experiments indicate that the sulfatase is the first enzyme in the sequential degradation of chondroitin sulfate in the mollusc. This differs from the pathway of degradation of this compound in vertebrates and bacteria.
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PMID:Sequential degradation of chondroitin sulfate in molluscs. Desulfation of chondroitin sulfate without prior depolymerization by a novel sulfatase from Anomalocardia brasiliana. 212 69

A rapid (3-h) arylsulfatase assay for cell suspensions of mycobacteria, in which p-nitrophenyl sulfate is used as the substrate, was developed. Arylsulfatase activity was found in cell suspensions of representative strains of Mycobacterium avium, Mycobacterium intracellulare, and Mycobacterium scrofulaceum grown without the substrate in either Middlebrook 7H9 medium containing 0.2% (wt/vol) glucose and 0.05% (vol/vol) Tween 80 or Dubos broth medium, but was absent in cells grown in a low-pH, minimal medium containing 1% (vol/vol) Tween 80 as the sole carbon source. The levels of arylsulfatase activity of representatives of all three species were equal whether the activity was measured at pH 5.5, 6.5, or 7.5 and whether the cells were suspended in phosphate or Tris buffer. The addition of high levels of sulfate (present in the low-pH, Tween 80-containing medium) to Middlebrook 7H9 medium resulted in significantly lower levels of arylsulfatase activity in strains of M. scrofulaceum, but did not affect the levels in either M. avium or M. intracellulare. The levels of arylsulfatase activity were highest in M. avium, intermediate in M. intracellulare, and lowest in M. scrofulaceum strains. Polyacrylamide gel electrophoresis of crude extracts from late-log-phase cells of representatives of each species produced activity bands of unique mobility (one in M. avium, three in M. intracellulare [82, 5, and 13%], and two in M. scrofulaceum [60 and 40%]).
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PMID:Arylsulfatase activity of Mycobacterium avium, M. intracellulare, and M. scrofulaceum. 222 99


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